#!/usr/bin/env python2.7 # Copyright 2015 gRPC authors. # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import argparse import collections import hashlib import json import math import sys import time from six.moves import zip import tabulate SELF_TIME = object() TIME_FROM_SCOPE_START = object() TIME_TO_SCOPE_END = object() TIME_FROM_STACK_START = object() TIME_TO_STACK_END = object() TIME_FROM_LAST_IMPORTANT = object() argp = argparse.ArgumentParser( description='Process output of basic_prof builds') argp.add_argument('--source', default='latency_trace.txt', type=str) argp.add_argument('--fmt', choices=tabulate.tabulate_formats, default='simple') argp.add_argument('--out', default='-', type=str) args = argp.parse_args() class LineItem(object): def __init__(self, line, indent): self.tag = line['tag'] self.indent = indent self.start_time = line['t'] self.end_time = None self.important = line['imp'] self.filename = line['file'] self.fileline = line['line'] self.times = {} class ScopeBuilder(object): def __init__(self, call_stack_builder, line): self.call_stack_builder = call_stack_builder self.indent = len(call_stack_builder.stk) self.top_line = LineItem(line, self.indent) call_stack_builder.lines.append(self.top_line) self.first_child_pos = len(call_stack_builder.lines) def mark(self, line): line_item = LineItem(line, self.indent + 1) line_item.end_time = line_item.start_time self.call_stack_builder.lines.append(line_item) def finish(self, line): assert line['tag'] == self.top_line.tag, ( 'expected %s, got %s; thread=%s; t0=%f t1=%f' % (self.top_line.tag, line['tag'], line['thd'], self.top_line.start_time, line['t'])) final_time_stamp = line['t'] assert self.top_line.end_time is None self.top_line.end_time = final_time_stamp self.top_line.important = self.top_line.important or line['imp'] assert SELF_TIME not in self.top_line.times self.top_line.times[ SELF_TIME] = final_time_stamp - self.top_line.start_time for line in self.call_stack_builder.lines[self.first_child_pos:]: if TIME_FROM_SCOPE_START not in line.times: line.times[ TIME_FROM_SCOPE_START] = line.start_time - self.top_line.start_time line.times[TIME_TO_SCOPE_END] = final_time_stamp - line.end_time class CallStackBuilder(object): def __init__(self): self.stk = [] self.signature = hashlib.md5() self.lines = [] def finish(self): start_time = self.lines[0].start_time end_time = self.lines[0].end_time self.signature = self.signature.hexdigest() last_important = start_time for line in self.lines: line.times[TIME_FROM_STACK_START] = line.start_time - start_time line.times[TIME_TO_STACK_END] = end_time - line.end_time line.times[ TIME_FROM_LAST_IMPORTANT] = line.start_time - last_important if line.important: last_important = line.end_time last_important = end_time def add(self, line): line_type = line['type'] self.signature.update(line_type.encode('UTF-8')) self.signature.update(line['tag'].encode('UTF-8')) if line_type == '{': self.stk.append(ScopeBuilder(self, line)) return False elif line_type == '}': assert self.stk, ( 'expected non-empty stack for closing %s; thread=%s; t=%f' % (line['tag'], line['thd'], line['t'])) self.stk.pop().finish(line) if not self.stk: self.finish() return True return False elif line_type == '.' or line_type == '!': if self.stk: self.stk[-1].mark(line) return False else: raise Exception('Unknown line type: \'%s\'' % line_type) class CallStack(object): def __init__(self, initial_call_stack_builder): self.count = 1 self.signature = initial_call_stack_builder.signature self.lines = initial_call_stack_builder.lines for line in self.lines: for key, val in line.times.items(): line.times[key] = [val] def add(self, call_stack_builder): assert self.signature == call_stack_builder.signature self.count += 1 assert len(self.lines) == len(call_stack_builder.lines) for lsum, line in zip(self.lines, call_stack_builder.lines): assert lsum.tag == line.tag assert lsum.times.keys() == line.times.keys() for k, lst in lsum.times.items(): lst.append(line.times[k]) def finish(self): for line in self.lines: for lst in line.times.values(): lst.sort() builder = collections.defaultdict(CallStackBuilder) call_stacks = collections.defaultdict(CallStack) lines = 0 start = time.time() with open(args.source) as f: for line in f: lines += 1 inf = json.loads(line) thd = inf['thd'] cs = builder[thd] if cs.add(inf): if cs.signature in call_stacks: call_stacks[cs.signature].add(cs) else: call_stacks[cs.signature] = CallStack(cs) del builder[thd] time_taken = time.time() - start call_stacks = sorted(call_stacks.values(), key=lambda cs: cs.count, reverse=True) total_stacks = 0 for cs in call_stacks: total_stacks += cs.count cs.finish() def percentile(N, percent, key=lambda x: x): """ Find the percentile of an already sorted list of values. @parameter N - is a list of values. MUST be already sorted. @parameter percent - a float value from [0.0,1.0]. @parameter key - optional key function to compute value from each element of N. @return - the percentile of the values """ if not N: return None float_idx = (len(N) - 1) * percent idx = int(float_idx) result = key(N[idx]) if idx < len(N) - 1: # interpolate with the next element's value result += (float_idx - idx) * (key(N[idx + 1]) - key(N[idx])) return result def tidy_tag(tag): if tag[0:10] == 'GRPC_PTAG_': return tag[10:] return tag def time_string(values): num_values = len(values) return '%.1f/%.1f/%.1f' % (1e6 * percentile(values, 0.5), 1e6 * percentile( values, 0.9), 1e6 * percentile(values, 0.99)) def time_format(idx): def ent(line, idx=idx): if idx in line.times: return time_string(line.times[idx]) return '' return ent BANNER = {'simple': 'Count: %(count)d', 'html': '

Count: %(count)d

'} FORMAT = [ ('TAG', lambda line: '..' * line.indent + tidy_tag(line.tag)), ('LOC', lambda line: '%s:%d' % (line.filename[line.filename.rfind('/') + 1:], line.fileline)), ('IMP', lambda line: '*' if line.important else ''), ('FROM_IMP', time_format(TIME_FROM_LAST_IMPORTANT)), ('FROM_STACK_START', time_format(TIME_FROM_STACK_START)), ('SELF', time_format(SELF_TIME)), ('TO_STACK_END', time_format(TIME_TO_STACK_END)), ('FROM_SCOPE_START', time_format(TIME_FROM_SCOPE_START)), ('SELF', time_format(SELF_TIME)), ('TO_SCOPE_END', time_format(TIME_TO_SCOPE_END)), ] out = sys.stdout if args.out != '-': out = open(args.out, 'w') if args.fmt == 'html': out.write('') out.write('') out.write('Profile Report') out.write('') accounted_for = 0 for cs in call_stacks: out.write('\n') if args.fmt in BANNER: out.write(BANNER[args.fmt] % { 'count': cs.count, }) header, _ = zip(*FORMAT) table = [] for line in cs.lines: fields = [] for _, fn in FORMAT: fields.append(fn(line)) table.append(fields) out.write(tabulate.tabulate(table, header, tablefmt=args.fmt)) accounted_for += cs.count if accounted_for > .99 * total_stacks: break if args.fmt == 'html': print('')